Publisher's Note: “Simulations of plasma heating caused by the coalescence of multiple current loops in a proton-boron fusion plasma” [Phys. Plasmas 17, 032504 (2010)]

Haruki, T.; Yousefi, H. R.; Sakai, J.-I.
April 2010
Physics of Plasmas;Apr2010, Vol. 17 Issue 4, p049903
Academic Journal
Correction notice
A correction to the article "Simulations of Plasma Heating Caused by the Coalescence of Multiple Current Loops in a Proton-Boron Fusion Plasma" that was published in the March 12, 2010 issue is presented.


Related Articles

  • Plasma heating by an induced azimuthal current in the electrical explosion of a wire in an ultrahigh magnetic field. Kolgatin, S. N.; Shneerson, G. A. // Technical Physics;Jan97, Vol. 42 Issue 1, p39 

    Presents estimates and numerical calculations that support the possibility of an additional plasma heating in a static axial magnetic field. Estimates of the heating produced by an azimuth current in a conducting medium formed in the electrical explosion of a thin wire in an axial magnetic...

  • Globus-M spherical tokamak. Gusev, V. K.; Golant, V. E.; Gusakov, E. Z.; D'yachenko, V. V.; Irzak, M. A.; Minaev, V. B.; Mukhin, E. E.; Novokhatskiı, A. N.; Podushnikova, K. A.; Razdobarin, G. T.; Sakharov, N. V.; Tregubova, E. N.; Uzlov, V. S.; Shcherbinin, O. N.; Belyakov, V. A.; Kavin, A. A.; Kostsov, Yu. A.; Kuz'min, E. G.; Soıkin, V. F.; Kuznetsov, E.A. // Technical Physics;Sep99, Vol. 44 Issue 9, p1054 

    The main parameters and design of the Globus-M spherical tokamak are described, including the modifications introduced after construction was completed. The experimental program and possibilities for optimizing the operating regimes of the facility are discussed. The research program envisages...

  • Neoclassical poloidal plasma rotation in an ion cyclotron heated tokamak revisited. Liu, Caigen; Weyssow, Boris // Physics of Plasmas;Apr2002, Vol. 9 Issue 4, p1326 

    An equation for the neoclassical poloidal plasma rotation in tokamaks, which applies to ion cyclotron resonant heating (ICRH), has been obtained in an earlier work [Phys. Plasmas 8, 4390 (2001)]. The present work is devoted to a detailed study of the properties of an additional contribution...

  • Numerical Analysis of the Near Fields of ICRH Antennas in a Tokamak. Breev, V. V.; Kovan, I. A.; Rodionov, N. B. // Plasma Physics Reports;Jan2001, Vol. 27 Issue 1, p30 

    Results are presented from numerical calculations of the near fields of ICRH antennas in the quasi-steady current approximation in two-dimensional geometry. The distributions of the vacuum electric and magnetic fields as well as of the surface current density in the antenna elements and inside...

  • Numerical simulation of ion cyclotron range of frequencies electron heating in the JET tokamak. Romero, Hugo A.; Scharer, John E. // Physics of Fluids B: Plasma Physics;Jan89, Vol. 1 Issue 1, p252 

    An ion cyclotron range of frequencies (ICRF) full-wave code and an anisotropic quasilinear Fokker–Planck code are used to simulate the time-dependent rise in the electron and ion temperatures during a sawtooth period corresponding to initial Ohmic equilibrium conditions in the JET tokamak...

  • Time-dependent scenario modeling of the Tokamak Physics Experiment using a theory-based... Kinsey, Jon; Kritz, Arnold; Bonoli, Paul; Porkolab, Miklos // Physics of Plasmas;Mar1996, Vol. 3 Issue 3, p1064 

    Presents predictive transport and current drive simulations for the time evolution of the temperature and density profiles in the Tokamak Physics Experiment. Model that has been empirically calculated against Ohmic, low-confinement and high-confinement mode discharges from different tokamaks;...

  • Stability of plasmas sustained by ion cyclotron wave excitation in the central cell of the Tara tandem mirror. Golovato, S. N.; Brau, K.; Casey, J.; Gerver, M. J.; Horne, S.; Irby, J.; Kesner, J.; Lane, B.; Machuzak, J.; Myer, R.; Post, R. S.; Sevillano, E.; Wang, L. // Physics of Fluids B: Plasma Physics;Apr89, Vol. 1 Issue 4, p851 

    The stability of plasmas produced by radio-frequency heating in the ion cyclotron frequency range (ICRF) has been studied in the central cell of the Tara tandem mirror [Nucl. Fusion 22, 549 (1982); Plasma Physics and Controlled Nuclear Fusion Research 1986, Proceedings of the 11th International...

  • Stable ellipticity-induced Alfven eigenmodes in the Joint European Torus. Heidbrink, W.W.; Fasoli, A.; Borba, D.; Jaun, A. // Physics of Plasmas;Oct97, Vol. 4 Issue 10, p3663 

    Reports on the excitation of stable eignmodes by an external antenna in elongated Ohmically heated plasmas in the Joint European Torus Laboratory in Abingdon, England. Frequency of the modes that falls in the gap in the magnetohydrodynamic (MHD) continuum produced by ellipticity; Determination...

  • Experimental investigation of particle heating in a strongly coupled dusty plasma. Quinn, R. A.; Goree, J. // Physics of Plasmas;Oct2000, Vol. 7 Issue 10 

    Highly charged dust particles in a plasma can be strongly coupled when their kinetic temperature is low. This temperature is determined by a balance of heating and gas cooling. The heating is believed to be electrostatic, although its exact nature is still under investigation. Experiments in a...

  • Electron vortex generation by strong, localized plasma heating. Abdalla, T. M.; Kuvshinov, B. N.; Schep, T. J.; Westerhof, E. // Physics of Plasmas;Sep2001, Vol. 8 Issue 9 

    The generation of electron vortical structures by strong localized heating is investigated analytically and numerically. The structure formation and its dynamics are described by the model of electron magnetohydrodynamics, extended to include pressure effects. Magnetic structures are generated...


Read the Article


Sorry, but this item is not currently available from your library.

Try another library?
Sign out of this library

Other Topics